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The researchers showcase an exciting surface metallic Dirac-vortex cavity design with enhanced power capabilities for electrically pumped Topological Lasers in the THz spectral range.
Switchable structural and physical bistability in ferroelectric materials can be achieved as result of molecular orbital breaking. Here, the authors describe the photo-mediated bistability in organosilicon Schiff base ferroelectric crystals for the modulation of dielectric, second-harmonic generation, and ferroelectric polarization and showing good in vitro biocompatibility.
The noncovalent interaction of ammonium ion with multidentate oxygen-based host serving as a key reacting center in catalytic reactions is rare. In this work, the authors report a noncovalent interaction of ammonium ion enabled reactivity enhancement process, achieving the C–H functionalization of polyethylene glycols with acrylates.
Lichen symbiosis between chlorophyte algae and fungi is a key player in ecosystems but our understanding of its evolution and genetic regulation in algae remains limited. This study finds that lichen symbiosis evolved at least three times in algae through gene family expansion and horizontal gene transfers
The authors study tunneling junctions in rhombohedral MoS2 bilayers and correlate their performance with the local domain layout. They show that the switching behavior in sliding ferroelectrics is strongly dependent on the pre-existing domain structure.
Bacteria can use contractile injection systems, similar to viral tail structures, to deliver toxic proteins into other cells. Here, Nagakubo et al. identify a related system that modulates sporulation in multicellular Streptomyces bacteria.
To eliminate transport emissions by 2050, low carbon fuels must rapidly replace fossil fuels. The authors model these technological transitions for each transport mode and evaluate economy-wide tradeoffs of varied levels of transport decarbonization.
Some plants use nectar to attract ant bodyguards. Here, the authors use a cross-kingdom phylogenetic approach to find that ferns and angiosperms evolved nectaries in the Cretaceous, coinciding with ant evolution, and that ferns recruited ant-bodyguards from existing ant-angiosperm partnerships.
This study unveils that stop codon readthrough is prevalent in E. coli, particularly under stress conditions. It highlights the influence of stop codon type and genetic context, with both transcriptional and translational origins.
Here, the authors investigate the interplay among DREAM, RB, SIN3 proteins, and HDACs in the context of cell-cycle gene repression, suggesting that E2F:RB and DREAM complexes can repress cell-cycle genes without relying on HDAC activity.
The authors study the [Nb/V/Ta] superconducting artificial superlattice, known to support a superconducting diode effect, by pulsed THz spectroscopy and simultaneous transport. They found a non-monotonic switching between the superconducting and normal state, which can be explained if the THz-driven vortex depinning determines the critical current.
Treatment failure following chimaeric antigen receptor (CAR) T cell therapy is common yet incompletely understood. In this study, the authors demonstrate that deletion of the mitochondrial negative regulator, MCJ, in CAR T cells promotes target cell killing ex vivo and augments their efficacy in an in vivo B cell leukaemia model.
By modelling the distribution of the entire Swiss flora using deep learning and citizen science data, this study demonstrates a method that predicts flowering phenology and potentially dominant tree species more accurately than commonly used approaches. This approach could enable investigation of understudied aspects of ecology and refine our understanding of plant distributions.
Here the authors conduct a multi-ancestry meta-analysis of telomere length, used diverse approaches to identify genes underlying association signals, and experimentally validated POP5 and KBTBD6 as regulators of telomere length in human cells.
Hydrogel fibres have potential in a range of applications such as flexible electronics, but achieving the desired mechanical properties can be challenging. Here, the authors report spider silk-inspired hydrogel fibres with tuneable mechanical properties suitable for flexible electronics.
Metasurface-based architectures enhance light-matter interactions between a terahertz photonic mode and glucose vibrational resonance. This platform allows new physical and chemical properties of hybrid light-matter states to be exploited.
Microbial migration profoundly impacts ecosystems. Here, the authors introduce a statistical approach to explore microbial dispersion following fecal microbiota transplant, uncovering dependencies between colonizing taxa, with insights into community dynamics.
The structure of crystalline materials plays a central role in materials science, but the disordered structure of metallic glass is difficult to characterize and describe. Here, the authors use diffusion maps on atomistic data to obtain general structural descriptors tied to atomic positions.
Histone H2AX has a known role in DNA damage repair but interestingly, its loss is associated with resistance to poly(ADP-ribose) polymerase (PARP) inhibition in BRCA-deficient tumours. Here, the authors identify a role of γH2AX in the degradation of replication forks and demonstrate that H2AX loss drives PARP inhibitor resistance via increased stressed fork stability in BRCA-deficient tumours.